Hf-Based High-k Dielectrics

Hf-Based High-k Dielectrics

EnglishPaperback / softbackPrint on demand
Kim, Young-Hee
Springer, Berlin
EAN: 9783031014246
Print on demand
Delivery on Friday, 21. of August 2026
CZK 658
Common price CZK 731
Discount 10%
pc
Do you want this product today?
Megabooks Praha Korunní
not available
Librairie Francophone Praha Štěpánská
not available
Megabooks Ostrava
not available
Megabooks Olomouc
not available
Megabooks Plzeň
not available
Megabooks Brno
not available
Megabooks Hradec Králové
not available
Megabooks České Budějovice
not available
Megabooks Liberec
not available

Detailed information

In this work, the reliability of HfO2 (hafnium oxide) with poly gate and dual metal gate electrode (Ru–Ta alloy, Ru) was investigated. Hard breakdown and soft breakdown, particularly the Weibull slopes, were studied under constant voltage stress. Dynamic stressing has also been used. It was found that the combination of trapping and detrapping contributed to the enhancement of the projected lifetime. The results from the polarity dependence studies showed that the substrate injection exhibited a shorter projected lifetime and worse soft breakdown behavior, compared to the gate injection. The origin of soft breakdown (first breakdown) was studied and the results suggested that the soft breakdown may be due to one layer breakdown in the bilayer structure (HfO2/SiO2: 4 nm/4 nm). Low Weibull slope was in part attributed to the lower barrier height of HfO2 at the interface layer. Interface layer optimization was conducted in terms of mobility, swing, and short channel effect using deep submicron MOSFET devices.
EAN 9783031014246
ISBN 3031014243
Binding Paperback / softback
Publisher Springer, Berlin
Publication date December 31, 2007
Pages 92
Language English
Dimensions 235 x 191
Country Switzerland
Readership Professional & Scholarly
Authors Kim, Young-Hee; Lee Jack C.
Illustrations X, 92 p.
Series Synthesis Lectures on Solid State Materials and Devices
Manufacturer information
The manufacturer's contact information is currently not available online, we are working intensively on the axle. If you need information, write us on [email protected], we will be happy to provide it.